Emergency braking of a vehicle using compound parking and service braking

The invention claimed is: 1. A method of brake management in a heavy vehicle having a pneumatic first brake system and a pneumatic second brake system, wherein the first brake system is configured to start generating brake force when an air pressure of the first brake system goes above a first pressure threshold and wherein the second brake system is configured to start generating brake force when an air pressure of the second brake system goes below a second pressure threshold, the method comprising: in response to determining that a request for emergency braking of the heavy vehicle is imminent: increasing the air pressure of the first brake system, such that an additional air pressure increase needed before the first brake system starts to generate brake force is smaller than before the increasing; and decreasing the air pressure of the second brake system, such that an additional air pressure decrease needed before the second brake system starts to generate brake force is smaller than before the decreasing; in response to receiving the request for emergency braking of the heavy vehicle, performing an emergency braking of the heavy vehicle by compounding both the first and the second brake systems, including: further increasing the air pressure of the first brake system to above the first pressure threshold; and further decreasing the air pressure of the second brake system to below the second pressure threshold; and after receiving the request for emergency braking of the heavy vehicle and while still performing the emergency braking of the heavy vehicle using the first brake system, increasing the air pressure of the second brake system to above the second pressure threshold again. 2. The method of claim 1 , further comprising: in response to not receiving the request for emergency braking of the heavy vehicle within a predefined time after the determining that the request for emergency braking of the heavy vehicle is imminent: decreasing the air pressure of the first brake system again; and increasing the air pressure of the second brake system again. 3. The method of claim 1 , wherein the increasing the air pressure of the first brake system comprises increasing the air pressure of the first brake system to a first predefined value at or below the first pressure threshold. 4. The method of claim 1 , wherein the decreasing the air pressure of the second brake system comprises decreasing the air pressure of the second brake system to a second predefined value at or above the second pressure threshold. 5. The method of claim 1 , wherein the first brake system is a pneumatic service brake system of the heavy vehicle, and wherein the second brake system is a pneumatic parking brake system of the heavy vehicle. 6. A brake system controller for a heavy vehicle having both a pneumatic first brake system and a pneumatic second brake system, the controller comprising processing circuitry configured to cause the brake system controller to: in response to obtaining an indication that a request for emergency braking of the heavy vehicle is imminent: instruct the first brake system to increase an air pressure in the first brake system, such that an additional air pressure increase needed before the first brake system starts to generate brake force is smaller than before the increase; instruct the second brake system to decrease an air pressure in the second brake system, such that an additional air pressure decrease needed before the second brake system starts to generate brake force is smaller than before the decrease; in response to receiving the request for emergency braking of the vehicle: instruct the first brake system to further increase the air pressure to above a first pressure threshold above which the first brake system starts to generate brake force; and instruct the second brake system to further decrease the air pressure to below a second pressure threshold below which the second brake system starts to generate brake force; and after receiving the request for emergency braking of the vehicle and while still performing the emergency braking of the heavy vehicle using the first brake system, increase the air pressure of the second brake system to above the second pressure threshold again. 7. The controller of claim 6 , wherein the processing circuitry is further configured to cause the brake system controller, by further instructing the first brake system and the second brake system, to: in response to not receiving the request for emergency braking of the heavy vehicle within a predefined time after the determining that the request for emergency braking of the vehicle is imminent: decreasing the air pressure of the first brake system again; and increasing the air pressure of the second brake system again. 8. A brake system for a heavy vehicle, comprising: the brake system controller of claim 6 ; a pneumatic first brake system configured to start generating brake force when the air pressure of the first brake system goes above the first pressure threshold; and a pneumatic second brake system configured to start generating brake force when the air pressure of the second brake system goes below the second pressure threshold. 9. The brake system of claim 8 , wherein the first brake system is a pneumatic service brake system and the second brake system is a pneumatic parking brake system. 10. A heavy vehicle, comprising the brake system of claim 8 . 11. A computer program product for brake management in a heavy vehicle having both a pneumatic first brake system and a pneumatic second brake system, the computer program product comprising a non-transitory computer readable medium having stored thereon a computer program that, when run on processing circuitry of a brake system controller of the heavy vehicle, causes the brake system controller to: in response to obtaining an indication that a request for emergency braking of the heavy vehicle is imminent: instruct the first brake system to increase an air pressure in the first brake system, such that an additional air pressure increase needed before the first brake system starts to generate brake force is smaller than before the increase; instruct the second brake system to decrease an air pressure in the second brake system, such that an additional air pressure decrease needed before the second brake system starts to generate brake force is smaller than before the decrease; in response to receiving the request for emergency braking of the vehicle: instruct the first brake system to further increase the air pressure to above a first pressure threshold above which the first brake system starts to generate brake force; and instruct the second brake system to further decrease the air pressure to below a second pressure threshold below which the second brake system starts to generate brake force; and after receiving the request for emergency braking of the heavy vehicle and while still performing the braking of the heavy vehicle using the first brake system, increase the air pressure of the second brake system to above the second pressure threshold again.